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Observational Study
. 2020 Dec;158(6):2658-2666.
doi: 10.1016/j.chest.2020.05.565. Epub 2020 Jun 17.

Incidence and Location of Atelectasis Developed During Bronchoscopy Under General Anesthesia: The I-LOCATE Trial

Ala-Eddin S Sagar  1 Bruce F Sabath  1 George A Eapen  1 Juhee Song  2 Mathieu Marcoux  1 Mona Sarkiss  3 Muhammad H Arain  1 Horiana B Grosu  1 David E Ost  1 Carlos A Jimenez  1 Roberto F Casal  4
Affiliations
Observational Study

Incidence and Location of Atelectasis Developed During Bronchoscopy Under General Anesthesia: The I-LOCATE Trial

Ala-Eddin S Sagar et al. Chest. 2020 Dec.

Abstract

Background: Despite the many advances in peripheral bronchoscopy, its diagnostic yield remains suboptimal. With the use of cone-beam CT imaging we have found atelectasis mimicking lung tumors or obscuring them when using radial-probe endobronchial ultrasound (RP-EBUS), but its incidence remains unknown.

Research question: What are the incidence, anatomic location, and risk factors for developing atelectasis during bronchoscopy under general anesthesia?

Study design and methods: We performed a prospective observational study in which patients undergoing peripheral bronchoscopy under general anesthesia were subject to an atelectasis survey carried out by RP-EBUS under fluoroscopic guidance. The following dependent segments were evaluated: right bronchus 2 (RB2), RB6, RB9, and RB10; and left bronchus 2 (LB2), LB6, LB9, and LB10. Images were categorized either as aerated lung ("snowstorm" pattern) or as having a nonaerated/atelectatic pattern. Categorization was performed by three independent readers.

Results: Fifty-seven patients were enrolled. The overall intraclass correlation agreement among readers was 0.82 (95% CI, 0.71-0.89). Median time from anesthesia induction to atelectasis survey was 33 min (range, 3-94 min). Fifty-one patients (89%; 95% CI, 78%-96%) had atelectasis in at least one of the eight evaluated segments, 45 patients (79%) had atelectasis in at least three, 41 patients (72%) had atelectasis in at least four, 33 patients (58%) had atelectasis in at least five, and 18 patients (32%) had atelectasis in at least six segments. Right and left B6, B9, and B10 segments showed atelectasis in > 50% of patients. BMI and time to atelectasis survey were associated with increased odds of having more atelectatic segments (BMI: OR, 1.13 per unit change; 95% CI, 1.034-1.235; P = .007; time to survey: OR, 1.064 per minute; 95% CI, 1.025-1.105; P = .001).

Interpretation: The incidence of atelectasis developing during bronchoscopy under general anesthesia in dependent lung zones is high, and the number of atelectatic segments is greater with higher BMI and with longer time under anesthesia.

Clinical trial registration: ClinicalTrials.gov; No.: NCT03523689; URL: www.clinicaltrials.gov.

Keywords: atelectasis; bronchoscopy; general anesthesia; radial endobronchial ultrasound.

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Figures

Figure 1
Figure 1
Radial-probe endobronchial ultrasound patterns. A, Aerated lung (snowstorm). B-D, Various patterns of nonaerated lung or atelectasis: concentric “tumor-like” with clear borders (B); concentric irregular with poorly demarcated borders (C); eccentric (D). (All images taken with 4-cm depth scanning).
Figure 2
Figure 2
Incidence of atelectasis in dependent lung segments (posterior lung views). LB = left bronchus; RB = right bronchus.
See this image and copyright information in PMC

Comment in

References

    1. Wang Memoli J.S., Nietert P.J., Silvestri G.A. Meta-analysis of guided bronchoscopy for the evaluation of the pulmonary nodule. Chest. 2012;142(2):385–393. - PMC - PubMed
    1. Tanner N.T., Yarmus L., Chen A. Standard bronchoscopy with fluoroscopy vs thin bronchoscopy and radial endobronchial ultrasound for biopsy of pulmonary lesions: a multicenter, prospective, randomized trial. Chest. 2018;154(5):1035–1043. - PMC - PubMed
    1. Sainz Zuñiga P.V., Vakil E., Molina S., Bassett R.L., Jr., Ost D.E. Sensitivity of radial endobronchial ultrasound-guided bronchoscopy for lung cancer in patients with peripheral pulmonary lesions: an updated meta-analysis. Chest. 2020;157(4):994–1011. - PubMed
    1. Khandhar S.J., Bowling M.R., Flandes J. Electromagnetic navigation bronchoscopy to access lung lesions in 1,000 subjects: first results of the prospective, multicenter NAVIGATE study. BMC Pulm Med. 2017;17(1):59. - PMC - PubMed
    1. Chaddha U., Kovacs S.P., Manley C. Robot-assisted bronchoscopy for pulmonary lesion diagnosis: results from the initial multicenter experience. BMC Pulm Med. 2019;19(1):243. - PMC - PubMed

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